Pressure gauge



' Sept. 19, 1944.

W. ANGST' PRESSURE GAUGE Filed-Feb. 3. 1943 4 Sheets-Shae; 1

IN VEN TOR.

Waller fllggsi Sept. 19, 1944. w, A S 2,358,613.

PRESSURE GAUGE Filed Feb. 5, 1943 4 Sheets-Sheet 3 I l m .29 1 a m 5 n x 1 1 2 0 1 j g 10 so 26 f0 41 29 "45 51 L-46 I v 45 e0 .52 61 a; 64 67 74 59 F" 95' is INVENTOR.

ma pm ,qTrmP/VEY Sept. 19, ANGST PRESSURE GAUGE Filed Feb. 3, 1943 4 SheetsPSheet 4 Patented Sept. 19, 1944.

PRESSURE GAUGE Walter Angst, Manhasset, N. Y., assignor to Square D Company, Detroit, Mich., a corporation of Michigan I Application February 3, 1943, Serial No. 4711.526

16 Claims.

This invention relates to pressure responsive devices and more particularly to pressure gauges. Pressure responsive indicatin instruments when used on aircraft are subjected to various "conditions by reason of the nature of flight. It .is of the utmost importance that such instruments indicate accurately at all times the conditions being measured regardless of changes in altitude, temperature, or barometric pressure.

This invention provides a pressure gauge particularly adapted for measuring absolute manifold pressure of motors mounted in aircraft and is admirably suited to the accomplishment of the above'mentioned desirable objective as well as others mentioned hereinafter.

. According to the invention, the indicating pressure gauge comprises indicating means and two diaphragm capsules, at least one of which is adapted to be connected to the source of pressure to be measured. Both capsules may expand or contract upon changes of ambient atmospheric pressure and are so mounted and arranged that errors of indication of the pressure to be measured which might otherwise, be caused when the,

gauge is subjected to different ambient pressuresf are compensated for or effectively cancelled out 7 whereby the gauge will indicate the actual pressure of the source. 1 According to a preferred embodiment of the invention, there is provided an instrument for indicating pressure and more particularly a. manifold pressure gau e arranged so that a. conduit from the engine manifold communicates with the interior of a diaphragm capsule which expands and contracts in response to pressure changes. Thus undesirable vapors and condensate from the mamfold z-ido not come hr-contact with the" other working parts of the instrument. This diaphragm capsule, herein referred to for convenience of description as the manifold pressure capsule, is mounted in such manner that it is not restrained but is free to expand and contract in response to changes either in the manifold pressure or the ambient atmospheric pressure or both. Mechanism-is provided to translate the movement of the manifold pressure diaphragm capsule to .a hand which travels over a graduated dial to indicate the manifold pressure. A second hermetically sealed diaphragm capsule is mounted to move bodily in response to contraction or expansion .of the manifold pressure diaphragm capsule and so arranged that it may ranged and connected with mechanism to translate themovement of the capsules in such manner that only expansion of the manifold diaphragm capsule resulting from change of manifold pressure is indicated by the instrument. That is to say, provision is made, according to the invention, whereby errors of indication which otherwise would occur due to changes in barometric or ambient pressure or temperaturemay be substantially or entirely eliminated.

In other-words, the manifold pressure diaphragm capsule expands or contracts in response to both manifold pressure and ambient atmospheric pressure, but inasmuch as it is desirable to compensate for the expansion and contraction of that capsule, which is due to change in atmospheric pressure, such expansion or contraction may be balanced out by the expansion or contraction of a second and hermetically sealed capsule which expands and contracts in response to the same change in atmospheric pressure. Consequently, the gauge will indicate manifold pressure only to an extent which is commensurate with the movement of the manifold pressure capsule due to manifold pressure being measured.

Although the novel features which are believed to be characteristic of this invention'will be particularly pointed out in the claims appended.

' hereto, the invention itself, as to its object 'and contractor expand without restraint in response advantages and the manner in which'it may be carried out, may be better understood by refer-' ring to the following description taken in connection with the accompanying drawings forming a part hereof, in which Fig. 1 is a plan View looking toward the face of the instrument;

Fig2i-2 isa view of'the instrument in *elevation and partly in section;

Fig. 3 is a section on line 3-3'of Fig. 2; Fig. 4 is a section on line 4-4 of Fig. 3;

Fig. 5 is a section on line 55 of Fig. 4 in larger dimensions;

Fig. 6 is a view partially diagrammatic to illustrate certain principles of the invention;

Figs. 10 and 11 are views partially diagrammatic toillustrate still another modification.

Like reference characters denote like parts in the several figures of the; drawings.

Referring now to the drawings, and more particularly to Figs. 1 to 5, which show for pur-. poses of illustration a. preferred embodiment of to the hollow boss 2|.

theinvention, there is provided a main frame assembly, designated generally by reference character I 0. The main frame assembly comprises a back or base plate H and a front or face plate I2 between which is mounted a center frame member or standard I3 for supporting certain of the parts hereinafter described. In addition to the center standard I2 there is provided complementary standards It and Ma for mounting other parts of the device. It has been found expedient to cast the base plate II and frame members I3, l4 and Her-integrally to which casting, the face plate l2 may be securely fixed, as by screws through the face plate extending into the adjacent engaging frame members, thus to provide the main frame assembly Ill.

Inasmuch as the instrument being described embodies two complementary pressure measuring units, each operative independently of the other, it will suflice'to describe only one in detail. It will be understood that reference characters with the sub-titles.a refer to correence characters without sub-titles are used.

A diaphragm capsule l5 comprising, a pair of corrugated flexible metal diaphragms |5.- and I! securely joined to each other at their peripheries is fixedly, but removably and adiustably, mounted on a cut away portion l8 of the center frame standard I3. The diaphragm l8 (see Figs. 4 and 5) has fixed thereto inits center a suporting stud it. It will be observed that supporting stud I! has an enlarged end or annular-shoulder 20 engaging the diaphragm I15. This annular shoulder is providedwith a conduit 2| leading to the interior or chamber 22 defined by the inner surfaces of the diaphragms I8 and H. To securely fasten the stud I! to the frame In, there is provided a clamping block 22 which engages the stud and standard l2. The clamping block 23 may be caused to securely clamp the stud I! by means of screws 24 and 25.

- One end-26 of a tube 21 is joined to the annular shoulder 20 and the other end 28 is joined to a connectlng member 29; This connecting member comprises a plate 20 having extending therefrom a hollow threaded boss 2| extending through a suitable aperture 22 in the baseplate II. It will be observed that plate 2|! is provided with a conduit 22 communicating with the end 28 of the tube 21 and the space 24 in the hollow threaded boss 2|. The other end 25 of the-tube 2'| communicates with conduit 2|.

sponding parts of the other unit wherein referaccommodates a stud 42 in male and female fashion. The stud 42 in turn is secured to the center of a corrugated diaphragm 43 which diaphragm 43 together with diaphragm 44 forms a second diaphragm capsule 45. This second capsule is referred to herein for convenience 'of description, as a compensating diaphragm capsule." The interior of this capsule 45 is preferably, but not necessarily, under relatively high or partial vacuum. This capsule is hermetically sealed. It will be understood when the compensating capsule is evacuated and hermetically sealed the instrument is better adapted to indicate absolute pressure.-

A U-shaped bracket 46 comprising cross member 41 and arms 48 and 49 extending outwardly therefrom, ismounted on the stud 40. The cross member 41 of the bracket 46 is provided with a ring 50 having an aperture therein to accommodate the stud 40. A set screw 5| passing through a threaded aperture in the ring 50 and through a threaded aperture in the hollow stud provides means for securely attaching the bracket and the second Or compensating capsule 45 to the diaphragm H of the first or manifold pressure capsule |5. .A rocker shaft 52 is mounted at one end 53 in a bearing in one end of bracket arm 49 and at its other end it engages a threaded rpivot screw 54, extending through bracket arm 48, this threaded screw providing adjustable bearing play. Accordin ly, the rocker shaft may rotate about its longit dinal axis. A lever screw 55 is threaded into a block 56 on the rocker shaft 52. This screw is provided with an annular shoulder 51 which engages and rests against a table 58 which intum is fixed to the center of diaphragm 44 in a suitable manner such as by a leg 59 and abutting portion (see Fi 5).

40 From the foregoing description it will be ap- 25."v It has been found expedient to make the p 7 the manifold, the pressure of which is to be me'asured, maybe screwed into or otherwise connected Accordingly. there is'provided a conduit from the manifold, or source of pressure, communieaflng with the-interior of the diaphragm capsule l5 and this much of the unit is hermetically sealed except for the passage from the manifold'to the interior of this capsule, which diaphragm capsule, as stated. is herein referred to for convenience of description, as

a manifold pressure diaphragm capsule.

Ahollowstudmemberll (seerias) isflxedly mounted on diaphragm oflth'e capsule II at its center. .The hollow portion 4| of the stud 4| 75 in:

parent that an expansion of diaphragm capsule I5 (see Fig. 5), due to an increase of pressure within this capsule, will cause a bodily movement of the bracket 45 and of capsule 45 away from the center frame member |3 a distanceequal to the expansion of capsule l5 which will be .in the same direction since the capsules are' free only to expand in that-direction. If the expansion of capsule I5 is due entirely to an increase of pressure within this capsule, there will be a bodily movement of the bracket 46-.

However, if there is no change in the ambient atmospheric pressure or temperature there is no rotation of rocker shaft 52 about its axis because this rocker shaft is mounted on bracket 45. If, on the other hand, there is a change in ambient atmospheric pressure there will be a resulting expansion or contraction of diaphragms II and 45 with consequent. rotation of the rocker shaft 52 as described in further detail hereinafter.

Also mounted on rocker shaft 52 is a lever arm 8| (see Fig. 2) extending in a direction substantially parallel with the lever screw 55. Lever arm 2| engages and rests against the free end 22 of bimetallic arm 52 which is adjustably mounted at its end 64 to a clamping lever 85, and held secure by means of a screw 85. Clamping lever passes through a hole in portion 51 of rocker shaft 28 and extends from portion 01 of rocker shaft 22. The clamping lever 65 may be adjustably butsecured to the rocker shaft by means of set-screw 69. This extendportion of lever 25 forms an'arm Ill carrya counterbalance weight .II which may be screw I5.

adjustably but fixedly secured to this arm. The

provision of a bimetallic arm such as arm 83, is a known expedient to those skilled in the art for temperature compensation and further elaboration in that regard is deemed unnecessary.

One end I2 of rocker shaft 88 is mounted in a bearing in the face plate I2 and the other end is mounted on pivot screw I3 which is threadedthrough the free end of supporting post I4, the

other end of which is adjustably but fixedly secured to frame member I4, as by means of a Rocker shaft 88 is provided with a spiral spring I8, the inner end of which is secured to the rocker shaft, the outer end being staked to a post 'I'I fixed to the inner side of the front frame plate l2. The spring I8 is mounted so as to urge the bimetallic arm against the lever arm 8|.

Fixedly mounted on rocker shaft 88 is a segment gear 'I8-having a counterbalance I8. The gear teeth of the segment engages a pinion 88 (see Figs. 2 and 4) fixedly mounted on a hand shaft 8| which is journaled at its inner end in a bearing 82 mounted in a cross piece 83 which is held in spaced parallel relation with another cross piece 84 by means of spacing members 85 and 88. The hand shaft 8| is also journaled in a bearing 87 mounted-in cross piece 84 which in turn is mounted in parallel spaced relation with the front plate I2 by means of spacer members 88 and 88. Thus sub-frame (see Figs. 2 and 4) comprising cross pieces 83 and 84 and spacers 85, 88, 88, 88, and designated generally by reference character 88, is secured to the front plate. Hand shaft 8| extends through an aperture 'in the front frame plate I2 and on its free end M I has a hand 82.mounted thereon, which hand has a pointer 83 adapted to move over the scale 84 onthe dial plate 85 in response to rotation of the hand shaft 8|. The hand shaft M is also provided with a spiral spring 85' fixed at its inner end to the shaft and staked at its outer end to a post fixed to the cross piece 83.

As mentioned hereinbefore, the embodiment shown in Figs. 1 to 5 is a dual unit instrument. That is to say, in addition to the unit already described a second unit is provided to indicate the pressure of another manifold independently of the first. In all substantial respects, the two units are alike. For convenience and for the sake of brevity, the corresponding parts of the second unit have been designated in' theflgures of the drawings with like reference characters with the sub-title 0 added. For example,

- rocker shaft 52 of the first unit corresponds to rocker shaft- 520. of the other unit.

In order to utilize'only a single dial plate and scale, a segment gear 180. engages a pinion 880 which is fixedly secured to a hollow hand shaft 88. The hollow hand shaft 88 is journaled at its inner free end in cross piece 84 of the sub-frame 88 and is also joumaled for rotation in a bearcorresponding to flange 88 of the cylindrical portion of the housing. The glass I82 may be held in place by means of a snap ring I83. Flange 88 may be secured to flange I 8| in a well known manner. The assembled instrument may be mounted in a suitable aperture in the panel board by means of screws extending through apertures I84. It may be noted also that the housing need not be airtight or sealed, although in certain instances it may be desirable to do so, in which case the interior of the housing may be provided with a connection for static pressure.

In order better to explain the principle of one feature of the invention, the partially diagrammatic views of Figs. 6 and '7 may conveniently be referred to. Fig. 6 may be said to represent the embodiment shown in Figs. 1 to 5. Fig. 7 may be said to represent a modification.

- Referring first to Fig. 7, H3 represents the fixed standard I3 of the main frame, I I8 the supporting stud which is fixedly mounted to diaphragm 8 of the capsule H5. It will be noted the last two digits of these reference characters correspond to the reference characters denoting corresponding parts in Figs. 1 to 5. Tube I2I connects with a conduit extending into the inversed so that upon expansion of this diaphragm capsule, table I58 will move toward instead of away from the fixed frame H3. Rocker shaft I52 is mounted in the bracket I48 between capsules H5 and I45 instead of beyond capsule I45, as is the case in the embodiment of Figs. 1 to 5 and as shown in Fig. 6.

Now let it be assumed'that the instrument is connected to a manifold, or other source of pressure,- through conduit I21, and that the atmospheric pressure remains constant and the manifold pressure is represented by P. Capsule 5 will expand an amount corresponding topressure P and will move the bracket a certain distance in direction of arrow 288, rocker arm I88 will dlcates on the scale 84 the pressure for one unit,

and hand 81 indicates on thesame scale the pressure for the other unit. It will be understood, of course, that the scale may be graduated in any desirable units of pressure measurement.

-The main frame, comprising front and back plates together with the various parts mounted gnosphere around the c be rotated a corresponding amount because the lever arm I8I moves with the rocker arm I52 in the same direction corresponding to the displacement of the diaphragm of capsule II5, since the expand, not because of inciiease of P,

suite, capsule H5 ei etotheframe. lnthisinstanoea of a decrease in atmospheric pressure. Hence, unlesssome compensation is provided, the reading on the dial of the instrument would not represent true manifold pressure. However, according to the invention, the arrangement of capsule I43 will provide the necessary compensation.

When capsule H expands due to a decrease in atmospheric pressure, capsule I45 will expand a like distance for the same decrease in atmos- 'and move lever arm ISI to move bimetallic arm I33 a corresponding distance toward capsule, I15. The efiective lever length of lever screw I55 may be conveniently adjusted to bring about the necessary movement of the corresponding distance. As a result, the rotation of rocker shaft IE8 is correspondingly effected and the pointer on the dial does not register the expansion of capsule II! due to change in ambient atmospheric pressure, but measures only the expansion due to and commensurate with the manifold pressure in the interior-of the manifold diaphragm capsule I I5. It will be understood that compensation for change in temperature is provided by utilizing the bimetallic, arm I63. Its use for temperature correction or compensation is already known in the aircraft instrument art and per se is not a novel feature.

As distinguished from the modification diagrammatically shown in Fig. 7, the diagrammatic showing of Fig. 6 corresponds generally to the embodiment of Figs. 1 to 5. In this instance manifold pressure diaphragm capsule I5 and compensating diaphragm capsule 45 are mountedto expand in the same direction. Hence, if capsule l5 expands due to a decrease in bient atmospheric pressure, it will move the :acket. 46 in the direction of arrow 2III. capsule 45 will expand an equal 'amountin the same direction. However, since the lever screw is mounted on the opposite side of rocker shaft 52 from the lever arm GI and the effective lever length of screw 55 is so adjusted,'arm 33 is moved in a direction toward the flxed frame I3 a distance which coraccordingly rocker shaft 68 will transmit;- rotation to the hand on the dial only so much as represent expansion of capsule I5 due to manifold is provided for connecting the source of pressure to the inside of the manifold pressure capsule. Such an arrangement is illustrated in more or less diagrammatic fashion in Figs. 8 and 9. The com- I due to changes in ambient atmosphere pressure.-

Mounted on member 34Gb of bracket 346 and to be carriedbodily therewith, is a manifold pressure diaphragmcapsuie SIS which is free to expand and contract in response to changes in atmospheric pressure but also in response to changes in the pressure to be measured. In this instance the interior of capsule 3I5 is connected to the source of pressure by means of a flexible conduit 341. It should be observed also that by selecting capsules 345 and M5 having the same expansion characteristics, more particularly, equal increments of expansion or contraction for equal increments of change in pressure, a simple arrangement of mechanism may be provided to transmit to the indicator the movementof the pressure capsule due to the pressure being measured.

A U-shaped member 390 has one end flxedto a stud 358. The other end engages one end of a bimetallic arm 363 which in turn has its opposite end adjustably secured at approximately right angles to a rocker arm 3,65. Rocker arm 365.ex-' tends through a hole .in rocker shaft 368 and is adjustably secured thereto as by a screw 369.

This rocker arm or lever 365 may also be provid-' ed with a counter-weight 31 I Rocker shaft 368'is pivotally mounted for rota- 5 tion about its axis. One end 312 being mounted in a bearing in the face plate M2, the other end on a pivot screw 313 which in turn is mounted .in a threaded opening in supporting arm :14 which is secured to a frame post 3. Rocker 5 shaft m is provided with a hair spring sas'and has mounted thereon in conventional fashion a segment gear 318 meshing with a pinion 38!) fixed to hand shaft 33I the outer end of which mounts a hand pointer 392 adapted tomove over a scale as described hereinbefore.

pressure in the interior of capsule I5; Consequently, the reading of the hand on the dial scale will represent true and accurate manifold pressure since there iscompensation for changes in both-temperature and barometric pressure condi-'- tions. It will be understood by thoseskflled in .the art that bimetallic lever'ann' I3 may be admove bodily although it is free to expand; However, if desired, the manifold pressure diaphragm i-i II nun;- diaphtagmicapsule I nexib ooonduit m the operation of this embodiment; it will be observed that there will be no rotation of rocker shaft 368 except upon expansion or constraction of diaphragm capsule 3|! due to'change in thepressure being measured since any expansion or contraction of this capsule 3" due to changes in change. In this instance also errors which might capsule may be mounted to move bodily while the otherwise be caused due to temperature change is corrected by reason of the provisionof bimetalli v armfll. 1

In addition to providing a gauge for measure- 0 meat and indication of absolute pressure, the inone source of pressure, as for example, by acouduit shown in dot-dash lines 341:: while the conduit 341. is connected to the other source, thus to provide for measurement of the differential between the two sources. At the same time, the two capsules when arranged according to the invention, will provide compensation of change in ambient pressure.

In some instances it may be desirable to utilize diaphragm capsules of different sizes or different expansion characteristics, but in any event each capsule should be such that as to it, it will ex pand or contract equal increments for equal increments of change of pressure. An embodiment illustrating such an instrument is shown more or less diagrammatically in Figs. 10 and 11.

In this embodiment, the manifold pressure diaphragm capsule M5 is secured to the frame M3 by means of stud MB. A conduit 421 is provided to connect the interior of capsule MS with the source of pressure to be measured. A bracket 446 mounted on capsule M5 carries a compensating diaphragm capsule 445 which is smaller than capsule 415. Rocker shaft 452 is pivotally mounted in the bracket 446 to rotate on its longitudinal axis as hereinbefore described, A lever arm 455 is adjustably mounted on rocker shaft 452 and has an annular shoulder 45'! engaging a table 458 secured to the compensating capsule 445. Also mounted on the rocker shaft 452 is a lever arm 465a: and extending in a direction generally parallel to lever arm 455. Clamped to this lever arm 46511: is a bimetallic arm 46311: which extends at right angles to the lever arm 4652:. Hence, a rotation of rocker shaft 452 on its axis caused by expansion or contraction of capsule 445 due to change in ambient pressure will effect a movement of the bimetallic arm 463m, corresponding tothe angular displacement of the lever arm 465a: and rocker shaft 452. Inasmuch as arm 463x is a bimetallic member, the efiective lever length of arm 465:: will be dependent upon the change of flexing of arm 4631: due to temperature changes. Hence, there is provision for temperature correction of capsule 445.

The bimetallic arm 463a: engages the end of a second bimetallic arm 463, the other end of which isclamped to one end of a rocker lever arm 465 which extends through an aperture in rocker shaft 468 and adjustably secured thereto. The opposite end of l'ever arm 465 is provided with a counter-balance 4H. Inasmuch as arm 463 is a bimetallic member, it provides for an effective lever length of rocker arm lever 465 dependent upon and compensating for movement of capsule 5 due to temperature changes. Rocker shaft 468 is mounted on the frame in conventional manner and is provided with the usual segment gear 418 meshing with a pinion on the hand shaft 48! which is also provided with a hair spring 495. Hand shaft 48! mounts a hand pointer 492 movable over a scale on the face plate 2 as hereinbefore described. Thus there is provided an instrument of the same general nature as that described in connection with Figs. 1 to 5, inclusive, except that capsules of different sizes and expansion characteristics may be utilized. Nevertheless, the novel arrangement provides for compensation for temperature as well as ambient pressure changes, while at the same time accomplishing the desirable objective of providing an pressure, if desired.

instrument which indicates only the pressure which is desired to be measured since errors which otherwise might be indicated are effectively cancelled outor eliminated.

From the foregoing it will be apparent that the invention provides a pressure gauge wherein the vapors and condensate from the manifold are confined to the manifold pressure diaphragm capsule itself and they cannot contaminate or gum up" the gears, bearings and delicate working parts. Errors which otherwise would be caused in the indication by reason of varying atmospheric or barometric pressure are balanced out so that the indicator indicates manifold pressure only to an extent which is commensurate with the movement of the manifold pressure diaphragm due to manifold pressure.

Two units may be provided in a relatively small housing and the same instrument may be used to register two separate manifold pressures inde-- pendently. If desired, more than two units may be mounted in a single housing, each to indicate a different pressure to be measured. This multiple unit feature is of particular advantage when space on the panel board of aircraft may often have to be conserved to make room for other necessary instruments. It will be apparent also that the diaphragm capsules are free to expand without restraint or the necessity of bucking" one another to provide compensation for changes in atmospheric conditions. It will be understood, of course, that "free to expand without restraint when used herein means without restraint but for the very slight resistance due to friction of the working parts or the small hair springs which prevent back lash. It will also be observed that there are no large vacuum chambers required tion vapors yet are readily accessible for adjustment or repair. Furthermore, it is not necessary to seal the housing as the instrument is compen-' sating regardless of static pressure. outside the cockpit. Nevertheless, the housing may iffgdesired, be made airtight and connected to theistatic While the instrument disclosed herein for illustrative purposes has been referred to as a manifold pressure gauge, it will be apparent that the invention lends itself to the production of gauges for other uses, such, for example, as fuel line pressures and other uses which-the foregoing disclosure will readily suggest to those skilled in the art.

While certain novel features of the invention have been disclosed herein, and are pointed out in the annexed claims, it will be understood that various omissions, substitutions and changes may be made by those skilled in the art without departing from the spirit of the invention.

What is claimed is:

1. A gauge which comprises a frame, a first diaphragm capsule mounted on said frame, which capsule will expand upon decrease in ambient atmospheric pressure and upon increase of pressure in the interior thereof. a conduit for connecting the interior of said first diaphragm capsule with a source of pressure to be measured, a second diaphragm capsule mounted to move bodily in response to expansion of said first cap-v sule, which second capsule will also expand upon decrease in ambient atmospheric pressure, means operative in response to expansion of said second capsule to balance out so much of the expansion of said first caps le which results from a. decrease in ambient atmospheric pressure and operative .sule mounted to move bodily creased, and mechanism to indicate the expansion of said first capsule.

2. In a pressure gauge, an indicator'to indicate the pressure to be measured, mechanism to operate said indicator in response to the pressure to be'measured, a first diaphragm capsule the interior of which is connectable to communicate with the source of pressure to be measured, said first capsule being expansible in response to an increase of pressure from said source and expansible in response to a decrease in ambient atmospheric pressure, a second diaphragm capin response to a movement of said first capsuleand expansible in response to a decrease in ambient atmospheric pressure, and means operative in response to movementof said capsules to cause said mechanism to operate said-indicator only to an extent which is commensurate with the movement of said first capsule in response to pressure from said source.

3. In a pressure gauge, an indicator to indicate the pressure to be measured, mechanism to operate said indicator in response to said pressure to be measured, which mechanism includes temperature compensating means, a first diaphragm capsule the interior of which is y connectable to communicate with the source of pressure-to be measured, said first capsule being expansible in response to an increase of pressure from said source and expansible in response to a decrease in ambient atmospheric pressure, a

a second diaphragm capsule mounted to move bodily in response to a movement of said first capsule and expansible in response to a decrease in ambient atmospheric pressure, and means operative in response to movement of said capsules to cause said mechanism to operate said indicator only so much as is due to the movement of said first capsule in response to pressure from said source.

municate with the source of pressure to be measured, said first capsule being expansible in response to an increase of pressure from said source and expansible in response to a decrease in ambi ent atmospheric pressure, a member carried by and a frame in said housing mounting a dial having a scale graduated in pressure measuring units, said pressure actuated unit comprising an indicator to indicate the pressure to be measured, mechanism to operate said indicator in response to the pressure to be measured, a first diaphragm capsule mounted on said frame which capsule will expand upon decrease in ambient atmospheric pressure and upon increase of pressure in the interior thereof, a conduit for con-' necting the interior of said first diaphragm capsule with a source of pressure to be measured, a second diaphragm capsule mounted to move bodily in response-to expansion of said first capsule which second capsule will also expand upon decrease in ambient atmospheric pressure, means operative in response to movement of said capsules to cause said mechanism to operate said indicatoronly to an extent commensurate with the movement of said first capsule in response to pressure from said source.

6. In a pressure gauge, a member having a scale, a hand movable over said scale to indicate the pressure to be measured, mechanism to operate said hand in response to the pressure to be measured, a first diaphragm capsule, a conduit connected to said first capsule and adapted to provide communication between the interior of said capsule and the source of pressure to be measured, said first capsule being expansible in response to an increase in pressure from said source and expansible in response to a. decrease in ambient atmospheric pressure, a second diaphragm capsule, means mounting said second capsule to move said second capsule bodily in response to a movement of said first capsule, said second capsule being expansible in response to a decrease in ambient atmospheric pressure, means including a member mounted for bodily movement in response to an expansion of said first capsule, a rocker shaft mounted for rotation .on said member, and means on said rocker shaft operative in response to bodily movement of said member to operate said me'ch- Y scale, a, hand movable over said scale to indiand bodily movable with said first capsule for mounting a rocker shaft, a rocker shaft mounted thereon, a second and hermetically sealed diaphragm capsule mounted on. said member to move bodily in response to a movement of said first capsule and expansible in response-to a decrease in ambient atmospheric pressure, means operative in response to the bodily movement of said mernber, means operative to rotate said rocker shaft in response to expansion of said second capsule, said respective means being arranged so that rotation of said rocker shaft will counteract the bodily movement of said member due to a change in ambient atmospheric pressure to cause said mechanism to operate said hand only to an extent commensurate with the movement of said first capsule in response to pres- "sure from said source.

5. A pressure actuated unit for a dual unit pressure gauge which gaugeincludes a housing,

cate the pressure to be measured, mechanism to omrate said hand in response to the pressure capsule, a damper tube connected to said first capsule and adapted to provide communication between the interior of said capsule and the source of pressure to be measured; said first capsule being expansible in response to an increase in pressure from saidsource and cont'ractible in response to a decrease in pressure from said source and expansible in response to a decrease pheric pressure, s. second diaphragm capsule,

means mounting said second capsule to move said second capsule bodily in response to a movemerit of said first capsule, said second capsule 7 being -expansible in response to a decrease in ambient atmospheric pressure and contractible in response to an increasein said atmospheric pressure, means including a member mounted for movement in response to anexpansion or contraction of said first capsule .which member mounts a rocker shaft, and means on said rocker shaft operative in response to movement of either or both of said capsules to cause said -mechanism to move said hand only to an extent which is commensurate with the movement of said first capsule in response to pressure from said source regardless of changes in the ambient atmospheric pressure.

8. A manifold pressure gauge which comprises a housing, a frame, having a supporting standard, mounted in said housing, a manifold pressure diaphragm capsule fixedly mounted on said frame and free to expand in a direction away from said standard on an increase in pressure within said capsule or a decrease in ambient atmospheric pressure outside said capsule, a conduit communicating with the interior of said capsule, a relatively long tube communicating with said conduit and adapted to communicate with the source of pressure to be measured, said tube being wound whereby to occupy a relatively small space within said housing, a bracket on said capsule and mounted to move bodily in re sponse to expansion of said capsule, an hermetically sealed compensating diaphragm capsule mounted on said bracket to move bodily therewith and free to expand in responsejzo a decrease in ambient atmospheric pressure on ond rocker shaft in response to expansionof said manifold pressure capsule due to manifold pressure and a second lever on said first mentioned rocker shaft operative in response to expansion of said compensating capsule to rotate said first rocker shaft to cause said first lever to rotate said second rocker shaft ina direction opposite to the direction of rotation of said'second rocker shaft caused by expansion of said manifold pressure capsule due to. a decrease in ambient atmospheric pressure and mechanism operative in response, to rotation of said second rocker shaftto indicate manifold pressure.

10. A manifold pressure gauge which comprises a housing'f a frame having a supporting standard, mounted insaid housing, a manifold pressure diaphragm capsule fixedly mounted on said frame and free to expand in a direction away from said standard on an increase in pressure within said capsule or a decrease in ambient atmospheric pressure outside said capsule, a conduit communicating with the interior of said capsule, a tube communicating with said conduit and adapted to communicate with the source of pressure to be measured, a bracket on said capsule and mounted to move bodily in response to expansion of said capsule, an hermetically sealed compensating diaphragm capsule mounted on said bracket to move bodily therewith and free to expand in response to a decrease in ambient atmospheric pressure, a

rocker shaft mounted for rotation on said bracket in response to an expansion of said.

compensating capsule due to a decrease in ambient atmospheric pressure, a second rocker shaft mounted on said frame for rotation, a lever mounted on said first mentioned rocker shaft operative to rotate said second rocker shaft inresponse to expansion of said manifold pressure capsule due to manifold pressure and a second lever on said first mentioned rocker shaft operative in response to expansion of said compensating capsule to rotate said second rocker .shaft in a direction opposite to the direction of rotation of said second rocker shaft as "a result of expansion of said manifold pressure capsule due to a decrease in ambient atmospherir pressure and mechanism operative in response to rotation of said second rocker shaft to indicate manifold pressure.

9. A manifold pressure gauge which comprises a housing, a frame having a. supporting standard, mounted-in said housing, a manifold pressure diaphragm capsule ,fixedly mounted on said frame and free to expand in a direction away from said standard on an increase in pressure within said capsule or a decrease in ambient atmospheric pressure outside said capsule, a conduit communicating with the interior of said capsule, a tube communicating with said conduit and adapted to communicate with the source of pressure to be measured, a bracket on said capsule and mounted to move bodily in response to expansion of said capsule, a compensatin'g diaphragm capsule mountedv on said bracket to move bodily therewith and free to expand in response to a decrease in ambient atmospheric pressure, a rocker shaft mounted for rotation on said bracket in response to an exfirst rocker shaft mounted for rotation on said bracket in response to an expansion of said compensating capsule due to a decrease in ambient atmospheric pressure, a second rocker shaft mounted on said frame for rotation, a first lever mounted on said first rocker shaft operative to rotate said second rocker shaft in response to expansion of said manifold pressure capsule due to manifold pressure and a second lever on said first mentioned rocker shaft operative in response to expansion of said compensating capsule to rotate said first rocker shaft-to cause said first lever to rotate said second rocker shaft ina direction opposite to the direction of rotation of said second rocker shaft caused by expansion of said manifold pressure capsule due to a decrease in ambient atmospheric pressure whereby to balance out the movement of said capsules due to a change in ambient atmospheric pressure and mechanism operative in response to the resultant rotation of said second rocker shaft to indicate manifold pressure.

11. In a pressure gauge, a member having a scale, a hand movable over said scale to indicate the pressure to be measured, mechanism to oppansion of said compensating capsule due to a decrease in ambient atmospheric pressure, a second rocker shaft mounted on said framefor rotation, a first lever. mounted on said first mentioned rocker shaft operative to rotate said secerate said hand in response to the pressure to be measured, a first diaphragm capsule, a conduit connected to said first capsule and adapted to provide communication between the interior of said capsule and the sourceof pressure to be measured, said first capsule being expansible in response to an increase in pressure from said source and expansible in response tov a decrease means including a member mounted ,for bodily movement in response to an expansion of said first capsule, a rocker shaft mounted for rotation on said member, and means on saidrocker shaft operative in response to bodily movement of said member to operate said mechanism and means on said rocker shaft to rotate said rocker shaft in response to expansion of said second capsule to operatesaid mechanism, said capsules, rocker shaft and the respective mounting means being so arranged that response-of said first capsule due to change in ambient atmospheric pressure is counteracted by the response of said second capsule due to the same change in ambient atmospheric pressure, and means to provide temperature compensation for said second diaphragm capsule.

12. In a pressure' gauge, indicating means, mechanism to operate said indicating means in response to the pressure to be measured, a first diaphragm capsule which expands or contracts in response to a change in ambient pressure, means mounting said first capsule permitting said capsule so to expand and contract, a second diaphragm capsule adapted to expand or contract in response to a change in ambient pressure, means for mounting said second capsule for bodily movement of said second capsule in response to expansion or contraction of said first capsule, a conduit adapted to connect the interior of one of said capsules with a source of pressure, and means operative in response to movements. of said capsules to operate said mechanism operating said indicating means and so arranged that the response of one capsule due to changes in ambient pressure is counteracted by, the response of the other capsule, due to changes in the ambient pressure.

13. In a gauge for indicating pressure, a frame, a first diaphragm capsule mounted on said frame adapted to expand and contract in pressure, an indicator and mechanism opera tive in response to the movement of at least one of said capsules to transmit to said indicator the movement of said capsules which is due tcthe pressure from said source, said capsules and mechanism being so arranged that expansion or contraction of one of said capsules due to changes in ambient atmospheric pressure counteracis expansion or contraction of the other of said capsules due to the same changes in ambient atmospheric pressure whereby the movement of either of said capsules due to changes in ambient pressure is not transmitted to said indicator.

14. In a-pressure gauge, means for indicating pressure, a frame, a first hermetically sealed diaphragm capsule mounted on said frame and free to expand and contracton decrease or increase of ambient pressure, a second diaphragm capsule, means mounting said-second capsule for bodily movement in response to expansion or contraction of said first capsule, a conduit connecting with the interior of said second capsule and adapted to be connected with'a source of pressure, said second capsule being free to expand or contract on decrease or increase of ambient pressure, mechanism operative in response to expansion or contraction of said second capsule due to pressure from said source in the interior of said second capsule to transmit to said indicating means only the movement of said second capsule which is due to the pressure from said source, said mechanism being so arranged that movement of one of said capsules due to changes in ambient pressure is counteracted by the movement of the other of said capsules due to the same changes in ambient pressure.

15. In a pressure gauge, means for indicating pressure to be measured, a frame, a first capsule mounted on said frame and having a conduit connecting with the interior thereof and adapted to be connected to one source of pressure, said first capsule being free to expand and contract on a decrease or increase of ambient pressure, 01 Oll increase 01 decrease Of pressurein the interior thereof from said first source, a

diaphragm mounting means mounted on said' first capsule, for bodily movement in response to movement of the diaphragm of said first capsule, a, second diaphragm capsule mounted on sure or on increase or decrease of pressure in the interior thereof from said second source, mechanism operative in response to the movement of at least one of said capsules to transmit to said indicating means the movement of said capsules due to the differential pressure between said first and second sources, said capsules and .mechanism'being arranged in such fashion that movement of the diaphragm of said capsules due to changes in ambient pressure is not transmitted to said indicating means.-

16. In a pressure gauge, indicating means, a frame, a, first diaphragm capsule mounted on said frame, a conduit'connected to said first capsule and adapted to provide communication be tween the interior of said capsule and the source of pressure to be measured, said first capsule being expansible in response to an increase in pressure from said source and expansible in response to adecrease in ambient atmospheric pressure, a second diaphragm capsule, means mounting said second capsule for bodily movement in response to an expansion or contraction of said first capsule, said second capsule being expansible in response to a decrease in ambient atmospheric pressure, means including a rocker shaft mounted on said second capsule mounting means and movable bodily therewith,

means operative in response to expansion of said second capsule to rock said shaft, andmechanism including temperature compensation means for each of said first and second capsules to transmit the movement of said first capsule due to pressure from said source to said indicating means, said capsules, mechanism and rocker shaft being operatively arranged to prevent movement of said capsules due to changes in ambient pressure from being transmitted to said indicating means. 7

WALTER ANGS'T. 

